__license__   = 'GPL v3'
__copyright__ = '2008, Kovid Goyal kovid@kovidgoyal.net'
__docformat__ = 'restructuredtext en'

'''
Based on ideas from comiclrf created by FangornUK.
'''

import os
import time
import traceback
from queue import Empty

from calibre import extract, prints, walk
from calibre.constants import filesystem_encoding
from calibre.ptempfile import PersistentTemporaryDirectory
from calibre.utils.cleantext import clean_ascii_chars
from calibre.utils.icu import numeric_sort_key
from calibre.utils.ipc.job import ParallelJob
from calibre.utils.ipc.server import Server

# If the specified screen has either dimension larger than this value, no image
# rescaling is done (we assume that it is a tablet output profile)
MAX_SCREEN_SIZE = 3000


def extract_comic(path_to_comic_file):
    '''
    Un-archive the comic file.
    '''
    tdir = PersistentTemporaryDirectory(suffix='_comic_extract')
    if not isinstance(tdir, str):
        # Needed in case the zip file has wrongly encoded unicode file/dir
        # names
        tdir = tdir.decode(filesystem_encoding)
    extract(path_to_comic_file, tdir)
    for x in walk(tdir):
        bn = os.path.basename(x)
        nbn = clean_ascii_chars(bn.replace('#', '_'))
        if nbn and nbn != bn:
            os.rename(x, os.path.join(os.path.dirname(x), nbn))
    return tdir


def generate_entries_from_dir(path):
    from functools import partial

    from calibre import walk
    ans = {}
    for x in walk(path):
        x = os.path.abspath(x)
        ans[x] = partial(os.path.getmtime, x)
    return ans


def find_pages(dir_or_items, sort_on_mtime=False, verbose=False):
    '''
    Find valid comic pages in a previously un-archived comic.

    :param dir_or_items: Directory in which extracted comic lives or a dict of paths to function getting mtime
    :param sort_on_mtime: If True sort pages based on their last modified time.
                          Otherwise, sort alphabetically.
    '''
    from calibre.libunzip import comic_exts
    items = generate_entries_from_dir(dir_or_items) if isinstance(dir_or_items, str) else dir_or_items
    sep_counts = set()
    pages = []
    for path in items:
        if '__MACOSX' in path:
            continue
        ext = path.rpartition('.')[2].lower()
        if ext in comic_exts:
            sep_counts.add(path.replace('\\', '/').count('/'))
            pages.append(path)
    # Use the full path to sort unless the files are in folders of different
    # levels, in which case simply use the filenames.
    basename = os.path.basename if len(sep_counts) > 1 else lambda x: x
    if sort_on_mtime:
        def key(x):
            return items[x]()
    else:
        def key(x):
            return numeric_sort_key(basename(x))

    pages.sort(key=key)
    if verbose:
        prints('Found comic pages...')
        try:
            base = os.path.commonpath(pages)
        except ValueError:
            pass
        else:
            prints('\t'+'\n\t'.join([os.path.relpath(p, base) for p in pages]))
    return pages


class PageProcessor(list):  # {{{

    '''
    Contains the actual image rendering logic. See :method:`render` and
    :method:`process_pages`.
    '''

    def __init__(self, path_to_page, dest, opts, num):
        list.__init__(self)
        self.path_to_page = path_to_page
        self.opts         = opts
        self.num          = num
        self.dest         = dest
        self.rotate       = False
        self.src_img_was_grayscale = False
        self.src_img_format = None
        self.render()

    def render(self):
        from qt.core import QImage

        from calibre.utils.filenames import make_long_path_useable
        from calibre.utils.img import crop_image, image_from_data, scale_image
        with open(make_long_path_useable(self.path_to_page), 'rb') as f:
            img = image_from_data(f.read())
        width, height = img.width(), img.height()
        if self.num == 0:  # First image so create a thumbnail from it
            with open(os.path.join(self.dest, 'thumbnail.png'), 'wb') as f:
                f.write(scale_image(img, as_png=True)[-1])
        self.src_img_format = img.format()
        self.src_img_was_grayscale = self.src_img_format in (QImage.Format.Format_Grayscale8, QImage.Format.Format_Grayscale16) or (
            img.format() == QImage.Format.Format_Indexed8 and img.allGray())
        self.pages = [img]
        if width > height:
            if self.opts.landscape:
                self.rotate = True
            else:
                half = width // 2
                split1 = crop_image(img, 0, 0, half, height)
                split2 = crop_image(img, half, 0, width - half, height)
                self.pages = [split2, split1] if self.opts.right2left else [split1, split2]
        self.process_pages()

    def process_pages(self):
        from qt.core import QImage

        from calibre.utils.img import (
            add_borders_to_image,
            despeckle_image,
            gaussian_sharpen_image,
            image_to_data,
            normalize_image,
            quantize_image,
            remove_borders_from_image,
            resize_image,
            rotate_image,
        )
        for i, img in enumerate(self.pages):
            if self.rotate:
                img = rotate_image(img, -90)

            if not self.opts.disable_trim:
                img = remove_borders_from_image(img)

            # Do the Photoshop "Auto Levels" equivalent
            if not self.opts.dont_normalize:
                img = normalize_image(img)
            sizex, sizey = img.width(), img.height()

            SCRWIDTH, SCRHEIGHT = self.opts.output_profile.comic_screen_size

            try:
                if self.opts.comic_image_size:
                    SCRWIDTH, SCRHEIGHT = map(int, [x.strip() for x in
                        self.opts.comic_image_size.split('x')])
            except Exception:
                pass  # Ignore

            if self.opts.keep_aspect_ratio:
                # Preserve the aspect ratio by adding border
                aspect = float(sizex) / float(sizey)
                if aspect <= (float(SCRWIDTH) / float(SCRHEIGHT)):
                    newsizey = SCRHEIGHT
                    newsizex = int(newsizey * aspect)
                    deltax = (SCRWIDTH - newsizex) // 2
                    deltay = 0
                else:
                    newsizex = SCRWIDTH
                    newsizey = int(newsizex // aspect)
                    deltax = 0
                    deltay = (SCRHEIGHT - newsizey) // 2
                if newsizex < MAX_SCREEN_SIZE and newsizey < MAX_SCREEN_SIZE:
                    # Too large and resizing fails, so better
                    # to leave it as original size
                    img = resize_image(img, newsizex, newsizey)
                    img = add_borders_to_image(img, left=deltax, right=deltax, top=deltay, bottom=deltay)
            elif self.opts.wide:
                # Keep aspect and Use device height as scaled image width so landscape mode is clean
                aspect = float(sizex) / float(sizey)
                screen_aspect = float(SCRWIDTH) / float(SCRHEIGHT)
                # Get dimensions of the landscape mode screen
                # Add 25px back to height for the battery bar.
                wscreenx = SCRHEIGHT + 25
                wscreeny = int(wscreenx // screen_aspect)
                if aspect <= screen_aspect:
                    newsizey = wscreeny
                    newsizex = int(newsizey * aspect)
                    deltax = (wscreenx - newsizex) // 2
                    deltay = 0
                else:
                    newsizex = wscreenx
                    newsizey = int(newsizex // aspect)
                    deltax = 0
                    deltay = (wscreeny - newsizey) // 2
                if newsizex < MAX_SCREEN_SIZE and newsizey < MAX_SCREEN_SIZE:
                    # Too large and resizing fails, so better
                    # to leave it as original size
                    img = resize_image(img, newsizex, newsizey)
                    img = add_borders_to_image(img, left=deltax, right=deltax, top=deltay, bottom=deltay)
            elif SCRWIDTH < MAX_SCREEN_SIZE and SCRHEIGHT < MAX_SCREEN_SIZE:
                img = resize_image(img, SCRWIDTH, SCRHEIGHT)

            if not self.opts.dont_sharpen:
                img = gaussian_sharpen_image(img, 0.0, 1.0)

            if self.opts.despeckle:
                img = despeckle_image(img)

            img_is_grayscale = self.src_img_was_grayscale
            if not self.opts.dont_grayscale:
                img = img.convertToFormat(QImage.Format.Format_Grayscale16)
                img_is_grayscale = True

            if self.opts.output_format.lower() == 'png':
                if self.opts.colors:
                    img = quantize_image(img, max_colors=min(256, self.opts.colors))
                elif img_is_grayscale:
                    uses_256_colors = self.src_img_format in (QImage.Format.Format_Indexed8, QImage.Format.Format_Grayscale8)
                    final_fmt = QImage.Format.Format_Indexed8 if uses_256_colors else QImage.Format.Format_Grayscale16
                    if img.format() != final_fmt:
                        img = img.convertToFormat(final_fmt)
            dest = f'{self.num}_{i}.{self.opts.output_format}'
            dest = os.path.join(self.dest, dest)
            with open(dest, 'wb') as f:
                f.write(image_to_data(img, fmt=self.opts.output_format))
            self.append(dest)
# }}}


def render_pages(tasks, dest, opts, notification=lambda x, y: x):
    '''
    Entry point for the job server.
    '''
    failures, pages = [], []
    for num, path in tasks:
        try:
            pages.extend(PageProcessor(path, dest, opts, num))
            msg = _('Rendered %s')%path
        except Exception:
            failures.append(path)
            msg = _('Failed %s')%path
            if opts.verbose:
                msg += '\n' + traceback.format_exc()
        prints(msg)
        notification(0.5, msg)

    return pages, failures


class Progress:

    def __init__(self, total, update):
        self.total  = total
        self.update = update
        self.done   = 0

    def __call__(self, percent, msg=''):
        self.done += 1
        # msg = msg%os.path.basename(job.args[0])
        self.update(float(self.done)/self.total, msg)


def process_pages(pages, opts, update, tdir):
    '''
    Render all identified comic pages.
    '''
    progress = Progress(len(pages), update)
    server = Server()
    jobs = []
    tasks = [(p, os.path.join(tdir, os.path.basename(p))) for p in pages]
    tasks = server.split(pages)
    for task in tasks:
        jobs.append(ParallelJob('render_pages', '', progress,
                                args=[task, tdir, opts]))
        server.add_job(jobs[-1])
    while True:
        time.sleep(1)
        running = False
        for job in jobs:
            while True:
                try:
                    x = job.notifications.get_nowait()
                    progress(*x)
                except Empty:
                    break
            job.update()
            if not job.is_finished:
                running = True
        if not running:
            break
    server.close()
    ans, failures = [], []

    for job in jobs:
        if job.failed or job.result is None:
            raise Exception(_('Failed to process comic: \n\n%s')%
                    job.log_file.read())
        pages, failures_ = job.result
        ans += pages
        failures += failures_
    return ans, failures
